Photoluminescence and Relaxation Processes in MEH−PPV

Photoluminescence and Relaxation Processes in MEH−PPV

A detailed description of the thermal relaxation processes in MEH−PPV is reported. Bulk methods such as DMTA were employed in conjunction with other techniques that probe molecular motions, such as fluorescence spectroscopy, thermal stimulated current, and 13C NMR. From the two main transitions obse...

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Bibliographic Details
Published in:Macromolecules Vol. 38; no. 3; pp. 925 - 932
Main Authors: Cossiello, R. F, Kowalski, E, Rodrigues, P. C, Akcelrud, L, Bloise, A. C, deAzevedo, E. R, Bonagamba, T. J, Atvars, T. D. Z
Format: Journal Article
Language:English
Published: Washington, DC American Chemical Society 08-02-2005
Subjects:
Applied sciences
Electrical, magnetic and optical properties
Exact sciences and technology
Organic polymers
Physicochemistry of polymers
Properties and characterization
Kinetic model
Conjugated polymer
Optical properties
Photoluminescence
Phenylenevinylene derivative polymer
Experimental study
Molecular relaxation
Modeling
Luminescence decay
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Summary:A detailed description of the thermal relaxation processes in MEH−PPV is reported. Bulk methods such as DMTA were employed in conjunction with other techniques that probe molecular motions, such as fluorescence spectroscopy, thermal stimulated current, and 13C NMR. From the two main transitions observed (glass transition process at 340 K and β-relaxation between 200 and 220 K), it was demonstrated that the first is strongly correlated with the dissociation of a fluorescent emissive interchain complex and that the second relaxation involves movements of the lateral substituents of the polymer backbone and, more specifically, their CH2 groups. NMR dipolar chemical shift correlation experiments pointed an increasing gain in mobility through the side chain, the lateral carbons close to the aromatic ring being more rigid than those located more distant from the main polymer chain. A kinetic model involving the dissociation of interchains to re-form intrachain excitons was proposed to explain the profiles of the photoluminescence spectra at higher temperatures.
ISSN:0024-9297
1520-5835
DOI:10.1021/ma048340i